Derivatised definitions
| Word backwards | desitavired |
|---|---|
| Part of speech | The word "derivatised" is a verb. |
| Syllabic division | de-riv-a-tised |
| Plural | The plural form of "derivatised" is "derivatised." |
| Total letters | 11 |
| Vogais (3) | e,i,a |
| Consonants (5) | d,r,v,t,s |
What is Derivatised?
Derivatised, in chemistry, refers to the process of adding functional groups to a molecule to alter its properties or make it easier to analyze. This process is commonly used in analytical chemistry to improve the detection or separation of compounds.
Importance of Derivatised
Derivatisation plays a crucial role in various analytical techniques such as gas chromatography and mass spectrometry. By modifying the chemical structure of a compound through derivatisation, scientists can enhance its stability, volatility, or detectability.
Applications of Derivatised
Some common applications of derivatised compounds include environmental analysis, pharmaceutical research, and forensic investigations. For example, in environmental analysis, derivatisation can help identify and quantify pesticides or pollutants in water samples.
Derivatisation Techniques
There are several derivatisation techniques available, including silylation, acylation, alkylation, and esterification. Each technique is chosen based on the specific functional groups that need to be added to the molecule and the desired analytical outcome.
Benefits of Derivatised
The benefits of derivatised compounds include increased sensitivity, improved chromatographic separation, and enhanced detection of target analytes. Derivatisation allows scientists to overcome the limitations of analytical techniques and achieve more accurate and reliable results.
Challenges in Derivatised
Despite its advantages, derivatisation also presents challenges such as the loss of sample during the derivatisation process, side reactions, and the need for specialized equipment and expertise. Overcoming these challenges requires careful optimization and validation of derivatisation methods.
Future of Derivatised
As analytical techniques continue to advance, the demand for derivatisation in chemical analysis is expected to grow. Researchers are constantly exploring new derivatisation methods to improve the detection limits, selectivity, and speed of analysis in various fields of chemistry and biochemistry.
Derivatised Examples
- The chemist derivatised the compound in order to make it more stable.
- The scientist derivatised the protein to enhance its solubility.
- The researcher derivatised the molecule to improve its detectability in the experiment.
- The pharmaceutical company derivatised the drug to reduce its side effects.
- The student derivatised the material to make it suitable for further analysis.
- The engineer derivatised the surface to increase its resistance to corrosion.
- The artist derivatised the paint to achieve a unique texture in the artwork.
- The chef derivatised the traditional recipe to create a modern twist on the dish.
- The designer derivatised the fabric to add a shimmering effect to the garment.
- The manufacturer derivatised the plastic to enhance its flexibility and durability.